This invention relates to a fan for an alternator, especially for a motor vehicle. The fan is adapted to be coupled in rotation to the rotor of the alternator, and comprises a wheel part and a plurality of fan blades extending from the latter; the fan is formed by moulding in a plastics material on a mechanical insert, in a material which is mechanically stronger than the plastics material, such as metal, and the insert constitutes the part of the fan by which it is secured on the support.
Fans of this type are already known and are described for example in the Applicant's French patent No. 2 673 338. In the fan described in that patent, the insert is of metal and is disposed in the wheel part, and serves for fastening of the fans to the rotor, in particular by welding. Given that the fan of plastics material is moulded on the insert with its fan blades, it is possible to make fans which have blades the number, configuration and disposition of which may be chosen according to the application of the fan and the cooling output that they are required to provide.
These fans may be used in alternators of high electrical output, which are liable to produce excessive heating when ventilation is poor.
However, these known fans have the major disadvantages that their manufacture is costly because of the large quantity of plastics material which is necessary, and which is expensive, and also because their mechanical strength is poor, again due to the high mass of plastics material which is used.
An object of the present invention is to propose a fan of the type defined above which does not have the disadvantages just set forth.
In order to achieve this end, there is provided, according to the invention, a fan for an alternator having a rotor, the fan being adapted to be coupled in rotation to the alternator rotor and being of the type comprising a wheel part and a plurality of fan blades extending from the latter; the fan being moulded in a plastics material on an insert, which constitutes the wheel part of the fan which is adapted for fastening the fan on the rotor, wherein the insert constitutes an armature adapted to support the mechanical stresses produced during rotation of the fan, characterised in that the insert includes at least a portion of a blade of the fan, whereby to increase the mechanical strength of the fan and obtain improved adhesion of the plastics material.
The moulded-on fan thus has enhanced mechanical strength because of the insert, which is preferably made of metal and which comprises at least a portion of a blade and consolidates the plastics part of the fan. Similarly the cost of the moulded fan is reduced because the insert, since it comprises at least a portion of a blade, occupies a relatively large space and ensures good mechanical strength, so that the quantity of plastics material which is necessary for the manufacture of the moulded fan is reduced. In addition, the insert determines the form and disposition, and the required number of blades are those desired. The blades may be very close to each other or of complex form, while being robust because the insert carries at least part of a blade of the fan, which enables better anchorage of the plastics material on the insert, and therefore greater homogeneity in the fan, to be obtained. The fan is thus able to rotate at high speeds, to be of high power, and to be less noisy and mounted in a motor vehicle alternator.
The invention is preferably completed by various features set forth as follows, taken alone or in all their technically possible combinations:
The insert extends over at least substantially the complete extent of the wheel part of the fan.
Thus, good mechanical strength of the fan is ensured with a reduced amount of plastics material, the volume of the wheel part being essentially occupied by the insert.
The insert extends radially over at least two thirds of the moulded-on portion of the fan.
Thus, the mechanical strength of the circumferential end of the fan is ensured because this part of the fan, not being moulded in situ, remains very close to the end of the insert, which greatly reduces the mechanical stresses applied on this external part of the fan while it is working in rotation.
The insert has a substantially circular contour at its outer periphery.
The insert has a contour in the form of teeth at its outer periphery.
The fan has two sets of blades, namely a first set consisting of main blades, which are longer than a second set which consists of secondary blades, at least one of which is disposed between two main blades; these secondary blades are part, at least partially, of the insert.
The main blades are part, at least partially, of the insert.
Thus, it can be that the large blades are made from metal plate and the small blades of plastics.
The blades in one set are consecutive.
The insert is made from bent metal plate in the form of a fan having at least one secondary blade or main blade.
The fan is a centrifugal, centripetal, axial, axial-centrifugal or axial-centripetal.
The blades, or the portions of the blades which are not part of the insert, are formed by in situ moulding of a plastics material on the insert.
The blades moulded in plastics material comprise, at least partially, at least one secondary blade located between two main blades.
The faces of the insert are at least partially covered with plastics material.
The secondary blades are at least partly covered with plastics material.
At least the parts of the insert which serve for fastening the fan on its support are free of plastics material.
The fan is an axial fan comprising a plate portion, which carries a cylindrical portion at its outer periphery, and blades which are fixed on the outer face of the cylindrical portion and which constitute at least part of the insert.
The fan is an axial fan comprising a plate portion carrying blades, and the insert extends at least over the extent of the plate portion.
The metallic insert has at least one opening for increasing the mechanical strength of the in situ moulding.
The invention will be understood more clearly, and further objects, features, details and advantages of it will appear more clearly, in the following explanatory description which is made with reference to the attached diagrammatic drawings, which are given by way of example only to illustrate an embodiment of the invention, and in which:
The sole purpose of
In this example the rotor is of the claw type and comprises two pole wheels designated by the references 8a and 8b, which have axially oriented teeth offset angularly as between one wheel and the other. The reference numeral 9 designates the excitation winding of the rotor which is mounted between the wheels 8a and 8b. As to the stator, it is enough to say that it comprises a body 11 formed with internal grooves for the passage of wires or hairpins of the windings 12 of the stator. The windings 12 extend through the body 11, which consists of a stack of laminations, and project axially on either side of the body 11 so as to form a front chignon and a rear chignon (not given reference numerals). The number of windings 12 depends on the application, and in particular on the number of phases in the alternator.
The rotor shaft 3 is supported by a front ball bearing 14 and a rear ball bearing 15, which are arranged respectively in a front bearing wall 17 and a rear bearing wall 18, which in this case have cut-away portions to allow air to circulate. The bearing walls are hollow in form and are so configured that they carry the body 11 of the stator at their outer periphery. Stretchers, which can be seen in the above mentioned document FR-A-2 673 338, join the bearing walls 17 and 18 together to constitute a casing which is arranged to be secured on a fixed part of the vehicle.
The reference numeral 16 designates the conventional rectifier device having diodes 16′, for rectifying the alternating current produced by the machine. This rectifier device is carried in this example by the rear bearing wall 18, which also carries a voltage regulator (not visible in
It is important to note that the alternator includes a front fan 19 and a rear fan 20, which are fixed in rotation on the front faces of the front pole wheel 8a and the rear pole wheel 8b respectively. Each fan comprises a wheel part 21 which is applied and fixed on the front face of the supporting pole wheel, together with a plurality of blades 22. The purpose of these fans, which are accordingly disposed close to the front bearing wall 17 and rear bearing wall 18, is to create a flow of cooling fluid, air in the present case, for cooling the hottest working parts of the alternator, such as the diodes 16′ of the rectifier device 16, the rolling bearings 14, 15, the rotor winding 1 and the stator windings 12, by passing air through various appropriate apertures in the bearing walls as indicated by the arrows. More precisely, each bearing wall 17, 18 has, in the vicinity of the associated bearing 14, 15, central air inlet apertures facing some of the blades 22, and central outlet apertures facing the appropriate chignon of the windings 12. The fans are fitted radially within the chignon of the windings, given that the rear fan 20 is more powerful than the front fan, because it has to cool the rectifier device 16.
It will be clear that the more the electrical output of the alternator is increased, the more the cooling capacity of the fans must be raised. This increase in electrical output of the rotary machine is sought without any increase in the volume of the machine. This object is achieved by an appropriate configuration of the blades.
The secondary blades 31, being shorter than the blades 29, are located radially outside the inner periphery of the long main blades 29. The purpose of the blades 31 is to reduce the noise from the electrical machine while increasing air flow and output. The arrangement is such that the secondary blade compresses the coolant fluid so that the latter will be in contact with the main blades 29. Recirculation of the air is thus prevented, and the flow of air is more laminar and takes place with little friction or noise. This arrangement enables the front fan 19 to be omitted if necessary, so that the alternator then has, in a variant, only one fan.
It would also of course be possible to envisage various combinations of arrangements of the secondary blades 31 with the longer main blades 29. Thus, it would be possible to dispose a plurality of secondary blades 31 between the main blades 29. The number of secondary blades disposed between the main blades in the same fan may be either constant or variable. Thus for example, in any one fan, four secondary blades may for example be inserted between two main blades, and then three secondary blades between two further main blades, or there may be any other combination. Equally, it is possible to envisage having a plurality of consecutive main blades 29 which do not have any secondary blades between them. The distribution of the secondary and main blades is determined as a function of the electrical machine to be cooled, whereby to obtain the best cooling effect with minimum aerodynamic noise.
The main blades 29 may be spaced apart circumferentially at regular intervals, or, as in the case shown in
Fans of complex structure, such as those shown in
In order to overcome these drawbacks, it is proposed to provide the fans with an insert of a material which is mechanically stronger than the plastics material, and which is preferably of metal.
The insert extends over a substantial extent of the plastics material, which is moulded in situ over this insert.
The metallic insert has to be able to permit the fan to resist mechanical stresses produced during rotation of the fan, such as shear stresses, vibration stresses, torsional stresses, and elongation stresses. These mechanical stresses which are produced during rotation cause the fan to be deformed, essentially in the plastics part which is not formed by moulding on the metallic insert. These deformations can cause mechanical fracture of the moulded-on part of the fan.
The insert must therefore have a geometry such as to enable the moulded part of the fan to have perfect mechanical strength while ensuring that the selling cost is relatively small. The insert has to permit complex blades to be made, such as those in
In a first embodiment, and according to one feature, the insert extends over practically the whole extent of the wheel of the fan, as is shown in
It is also possible to make use of a metallic insert which has an outer peripheral edge that is non-circular, as is shown in
Equally, the metal insert may have openings 93 to give better mechanical strength to the moulded-on part; the plastics material extends through the openings so as to form pads. The openings 93 are able to reduce the cost of the fan even more, by enabling in situ moulding to be carried out on only one face of the metallic insert. For good mechanical strength, these openings in which the plastics material is moulded in place must be so located as to ensure good mechanical strength.
As will have been understood, the cheapest solution is the one shown in
However, as can be seen from
The crown 39 enables the wheel 25 to be fastened on the outer front face of the pole wheel 8a or 8b of the rotor 1 of the electrical machine, for example by welding. The circular zones 41 which are spaced apart on the crown at practically equal distances circumferentially in the example shown (though this is not obligatory) are welding points, and correspond to local deformations, shown at 43 in
It is found that on the front face shown in
In the embodiment just described, the insert constitutes nearly the whole of the wheel part of the fan, thereby giving good mechanical strength to the latter.
In accordance with one feature, during the operation of moulding on the insert 38, not all of the set of blades such as are shown in
More precisely, in accordance with the invention and is best shown in
The invention makes use of the insert in order to increase even more the mechanical strength of the fan and obtain better anchoring of the plastics material, that is to say better homogeneity of the fan and better attachment of the plastics material on the insert.
The particular feature of the embodiment of the invention in
It is by moulding the plastics material on the insert in situ, as shown in
In
In this case, at least the central plate portion 65 and at least part of the blades 69 are of metal and are part of the insert, as shown for example in
As in
Preferably, the portions 70 are obtained by bending in such a way that the said portions are hollow internally, which encourages adhesion and therefore the anchoring of the plastics material of the blades 69.
Numerous modifications may of course be made to the embodiments shown, which are given by way of example only. Thus, the blades may be disengaged or be at least partially covered with plastics material. The metallic insert may be fixed on the rotor not only by welding, but in any other appropriate way, for example by riveting, threaded fastening, sweating on the shaft, by screws, or the like.
By contrast with the embodiment shown in
Thus, according to the metal surface of the insert which is available for bending the blades, it is possible to make any kind of combination between the blades formed by bending sheet metal with the blades formed by in situ moulding in plastics material. For example, the metal insert may carry long blades only, or only short blades, or again, a combination of the two. The said blades can clearly be disposed at irregular intervals. Thus, the insert may be configured in such a way that it carries only one long or short blade for example.
In the case of the axial fan of
It should be noted that the invention applies an effective solution to a problem posed by fans before being used in rotary alternators of high power output, with, however, the constraint that volume is not increased. The solution of making fans only by moulding in plastics material has the disadvantage that the manufacturing process is costly, and that the fans thus obtained do not have the required mechanical strength. As to the method of making fans in fabricated metal, which would be appropriate from the points of view of cost and mechanical strenght, it does not enable a configuration of blades to be made which will be able to ensure the necessary cooling performance, that is to say that of two sets of blades in accordance with
It follows from the foregoing that the invention, especially in its embodiment which makes use of a metallic insert which is already in the form of a fan, or with at least one blade, enables fans to be made having the configurations of complex blades which give them increased cooling power, at a relatively low selling cost and with good mechanical strength.
For fans having only one set of blades, but which are very close together and therefore very numerous, or with long or complicated blades, and which cannot therefore be made by bending, a part of the fan can then be made in metal plate and another part in plastics material.
The fan according to the invention can of course be mounted in a reversible alternator or so-called starter alternator, which is able to work also as an electric motor, in particular for starting the heat engine of a motor vehicle, as described in the document WO01/69762. In another version, the fan can be mounted in an alternator which comprises a rotor with projecting poles, as described in the document WO02/054566. The alternator may also be water cooled and be equipped with an axial fan of the type shown in
The windings of the stator may, as mentioned above, include conductive elements in the form of hairpins, generally U-shaped and with a cross sectin which is preferably rectangular, in the manner described in the document WO02/50976. The fan of the invention enables the head of the hairpins to be well cooled, because it may have the desired form. The alternator may only have a rear fan, due to the power from the fan according to the invention.
Number | Date | Country | Kind |
---|---|---|---|
01 12553 | Sep 2001 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/FR02/03305 | 9/27/2002 | WO | 00 | 12/20/2004 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO03/029658 | 4/10/2003 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
4957414 | Willingham | Sep 1990 | A |
5693992 | Kurusu et al. | Dec 1997 | A |
5927949 | Ogasawara | Jul 1999 | A |
Number | Date | Country |
---|---|---|
0 500 442 | Aug 1992 | EP |
2 741 912 | Jun 1997 | FR |
2 347 276 | Aug 2000 | GB |
Number | Date | Country | |
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20050106024 A1 | May 2005 | US |